2022 03 v.40 25-30
“双碳”背景下抽水蓄能电站的发展与展望
基金项目(Foundation):
邮箱(Email):
DOI:
10.19929/j.cnki.nmgdljs.2022.0043
中文作者单位:
西华大学流体及动力机械教育部重点实验室;西华大学能源与动力工程学院;
摘要(Abstract):
介绍了我国抽水蓄能电站建设的发展历程,以及现阶段我国抽水蓄能电站的发展情况。现阶段我国抽水蓄能电站积累了丰富的开发建设经验,掌握了先进的抽水蓄能机组制造技术,形成了完备的抽水蓄能电站规划、设计、建设、运行管理体系。并对我国未来抽水蓄能电站的发展提出了展望,未来我国抽水蓄能机组智能化和国产化率将进一步提升,抽水蓄能电站与新能源联合运营,将在构建新型电力系统、促进清洁能源消纳、实现“碳达峰”“碳中和”目标等方面发挥重要的作用。
关键词(KeyWords):
双碳;抽水蓄能电站;装机容量;发展历程
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参考文献
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[2]岳蕾,王丹迪.以新能源为主体的新型电力系统背景下抽水蓄能标准体系建设的思考[J].西北水电,2022(1):78-81.YUE Lei, WANG Dandi. Thoughts on Standard System Development for Pumped-Storage Power Station under the Background of New Power System with New Energy at its Core[J]. Northwest Water Power, 2022(1):78-81.
[3]徐天元,刘尹华,李海强,等.国内外“碳达峰、碳中和”发展布局分析[J].东北电力技术,2021,42(11):24-25,58.XU Tianyuan, LIU Yinhua, LI Haiqiang, et al. Analysis of Development Layout of"Carbon Peak, Carbon Neutral"at Home and Abroad[J]. Northeast Electric Power Technology, 2021, 42(11):24-25, 58.
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[5]华丕龙.抽水蓄能电站建设发展历程及前景展望[J].内蒙古电力技术,2019,37(6):5-9.HUA Pilong. Development and prospect of pumped-storage power stations[J]. Inner Mongolia Electric Power,2019, 37(6):5-9.
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[8]彭才德.助力“碳达峰、碳中和”目标实现加快发展抽水蓄能电站[J].水电与抽水蓄能,2021,7(6):4-6.PENG Caide. Contribute to the Realization of the Goal of"Carbon peak and carbon neutrality"Speed up the Development of Pumped Storage Power Plants[J]. Hydropower and Pumped Storage, 2021, 7(6):4-6.
[9]国家能源局.水电发展“十三五”规划[R].北京:国家能源局,2016.
[10]国家发展改革委员会.关于进一步完善抽水蓄能价格形成机制的意见[R].北京:国家发展改革委员会,2021.
[11]国家电网企业管理协会.深入推进可持续性管理,助力碳达峰碳中和行动[J].可持续发展经济导刊,2021(8):26-28.
[12]李肇桀,张旺,姜斌,等.利用调水储能促进碳达峰碳中和目标实现的建议[J].水利发展研究,2021,21(12):17-18.
[13]水电水利规划设计总院.中国可再生能源发展报告2020[M].北京:中国水利水电出版社,2021.
[14]王舒鹤.中国水电发展的现状与前景展望[J].河南水利与南水北调,2021,50(7):26-27.WANG Shuhe. Present Situation and Prospect of Hydropower Development in China[J]. Water Resources&South to North Water Diversion, 2021, 50(7):26-27.
[15]国家能源局.抽水蓄能中长期发展规划(2021—2035年)[R].北京:国家能源局,2021.
[16]赵杰君,栾凤奎,杨霄霄.抽水蓄能变速机组前期规划策略初探[J].水力发电,2018,44(4):57-59.ZHAO Jiejun, LUAN Fengkui, YANG Xiaoxiao. Study on preliminary planning strategy of variable speed unit of pumped-storage power station[J]. Water Power,2018, 44(4):57-59.
[17]李晓鹏,李岩,刘舒然,等.基于可变速抽水蓄能技术提升区域电网新能源消纳水平的研究[J].智慧电力,2021,49(10):52-58,112.LI Xiaopeng, LI Yan, LIU Shuran, et al. Research on Promotion of Renewable Energy Integration into Regional Power Grid by Variable Speed Pumped Storage Technology[J]. Smart Power, 2021, 49(10):52-58, 112.
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[19]张旭,张鹏,陈昕.海水抽水蓄能电站发展及应用[J].水电站机电技术,2019,42(6):66-70.
[20]闫译文,刘秋华,郑波.智能抽水蓄能电站设计[J].云南水力发电,2021,37(7):113-116.YAN Yiwen, LIU Qiuhua, ZHENG Bo. Design of Intelligent Pumped Storage Power Station[J]. Yunnan Water Power, 2021, 37(7):113-116.
[21]何雪飞.面向智能电网的抽水蓄能电站的智能化研究[J].大电机技术,2017(4):66-70.HE Xuefei. The Smart Grid Oriented Intelligent Development of Pumped Storage Power Station[J].Large Electric Machine and Hydraulic Turbine, 2017(4):66-70.
[22]袁泉,周鑫,张蔷,等.考虑抽蓄电站运行特性的电网经济调度方法[J].电力大数据,2020,23(9):58-65.YUAN Quan, ZHOU Xin, ZHANG Qiang, et al. A power grid economic dispatch method considering the operation characteristics of pump storage power station[J]. Power Systems and Big Data, 2020, 23(9):58-65.
[23]韩小鸣,茹松楠,马萧萧.国网新源公司抽水蓄能电站建设期工程设计管理机制[C]//中国水力发电工程学会电网调峰与抽水蓄能专业委员会.抽水蓄能电站工程建设文集(2019).北京:中国电力出版社,2019:26-29.
[24]王洪玉,朱静萍,蒋滟,等.抽水蓄能电站地下隧洞TBM施工经济分析[J].人民黄河,2021,43(增刊2):153-155.
[25]靳亚东,王婷婷.新形势下抽水蓄能电站的发展契机[C]//中国水力发电工程学会电网调峰与抽水蓄能专业委员会.抽水蓄能电站工程建设文集(2019).北京:中国电力出版社,2019:9-12.
[26]彭潜,顾志坚,陈弘昊,等.大型抽水蓄能电站机组国产化关键技术研究与工程应用[J].水力发电,2021,47(2):9-13.PENG Qian, GU Zhijian, CHEN Honghao, et al. Research and engineering application of key technologies for localization of large pumped-storage power station units[J]. Water Power, 2021, 47(2):9-13.
[27]袁波,褚洪臣,杨凯,等.考虑碳交易的风电-抽水蓄能联合运行模式优化研究[J].价值工程,2021,40(32):4-8.YUAN Bo, CHU Hongchen, YANG Kai, et al. A Comprehensive Economic Benefit Evaluation Method for Hybrid Wind Power Pumped Storage Considering Carbon Emission Trading[J]. Value Engineering, 2021,40(32):4-8.
[28]王婷婷,邱彬如,靳亚东.应积极鼓励支持抽水蓄能电站的发展[J].水力发电学报,2010,29(1):62-65,37.WANG Tingting, QIU Binru, JIN Yadong. Support and promote the development of pump-storage hydropants[J]. Journal of Hydroelectric Engineering, 2010, 29(1):62-65, 37.
[29]孙望良,梅亚东,肖小刚,等.面向清洁能源消纳的抽水蓄能电站运行方式研究[J].中国农村水利水电,2020(12):172-179.SUN Wangliang, MEI Yadong, XIAO Xiaogang, et al.Study on the Operation of Pumped Storage Power Station for Clean Energy Consumption[J]. China Rural Water and Hydropower, 2020(12):172-179.
[30]崔勇,李鹏,姬德森,等.基于多边收益的风光水能源联合运营策略[J].电力自动化设备,2019,39(4):161-166,173.CUI Yong, LI Peng, JI Desen, et al. Joint operation strategy of wind power-photovoltaic-pumped storage hydro energy based on multilateral income[J]. Electric Power Automation Equipment, 2019, 39(4):161-166,173.
基本信息:
DOI:10.19929/j.cnki.nmgdljs.2022.0043
中图分类号:TV743
引用信息:
[1]任海波,余波,王奎等.“双碳”背景下抽水蓄能电站的发展与展望[J].内蒙古电力技术,2022,40(03):25-30.DOI:10.19929/j.cnki.nmgdljs.2022.0043.
基金信息:
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